Catnip Essential Oil

There are currently only two farms in Canada producing high quality catnip oil with 80-90% nepatalactone. antities. A very nice golden colored oil direct from the farm and best of all the oil has no pesticide residues!

Sample: Catnip Oil
Species: Nepeta cataria
Origin: Canada

Certificate of Analysis - Pure Catnip Essential Oil

The sample was analyzed with simultaneous MS and FID detection. Components were identified by MS while percentages were determined by the more accurate FID. The composition corresponds to that expected for the oil of Nepeta cataria. Approximately 200 peaks were found in the oil. The list for the major components (above 0.01%) is shown at the right. A total of 11 nepetalactone isomers were detected with only 9 of them being 0.01% or more. There are 5 major nepetalactone isomers present at 0.1% or more. The numbering system for nepetalactones was used since the exact structures of all isomers have not yet been firmly identified. Total nepetalactone of this lot was over 81% and previous lots have measured as high as 90%. Absolutely no pesticides residues were detected.

Main Components (98+% identified)
RT
Library/ID
FID %

4.36
2-Thiapropane
0.01%

6.61
ISO VALERALDEHYDE
0.02%

6.88
2-methyl-butanal
0.02%

8.08
2-ethyl-furan
0.07%

16.43
trans-2-hexenal
0.03%

19.01
Styrene
0.07%

21.79
THUJENE
0.03%

22.25
PINENE
0.22%

25.44
SABINENE
0.17%

25.60
PINENE
1.17%

26.33
3-Butenyl isothiocyanate
0.05%

27.88
PHELLANDRENE
0.15%

28.88
TERPINENE
0.02%

29.53
CYMENE
0.02%

29.84
LIMONENE
0.24%

30.73
OCIMENE
0.28%

31.54
OCIMENE
0.93%

32.30
TERPINENE
0.04%

35.96
NONANAL
0.07%

39.77
MENTHONE
0.02%

42.88
METHYL SALICYLATE
0.02%

44.47
unidentified
0.46%

44.86
beta-Cyclocitral
0.02%

46.24
PULEGONE
0.04%

46.58
CARVONE
0.22%

48.53
GERANIAL
0.05%

50.57
TRIDECANE
0.04%

55.38
NEPETALACTONE 1
29.71%

57.54
NEPETALACTONE 2
45.27%

57.64
NEPETALACTONE 3
1.78%

58.21
ISO-CARYOPHYLLENE
0.12%

59.16
BETA-CARYOPHYLLENE
10.78%

61.30
HUMULENE
1.35%

63.47
VALENCENE
0.12%

63.78
NEPETALACTONE 4
0.67%

64.62
NEPETALACTONE 5
0.09%

66.60
NEPETALACTONE 6
3.41%

67.60
NEPETALACTONE 7
0.07%

68.58
NEPETALACTONE 8
0.04%

69.04
NEPETALACTONE 9
0.04%

69.53
CARYOPHYLLENE OXIDE
1.00%

NEWS RELEASE FROM THE AMERICAN CHEMICAL SOCIETY:

"Catnip Repels Mosquitoes More Effectively Than DEET"

CHICAGO, August 27, 2001 — Researchers report that nepetalactone, the essential oil in catnip that gives the plant its characteristic odor, is about ten times more effective at repelling mosquitoes than DEET — the compound used in most commercial insect repellents.
The finding was reported today at the 222nd national meeting of the American Chemical Society, the world’s largest scientific society, by the same Iowa State University research group that two years ago discovered that catnip also repels cockroaches.

Entomologist Chris Peterson, Ph.D., with Joel Coats, Ph.D., chair of the university’s entomology department, led the effort to test catnip’s ability to repel mosquitoes. Peterson, a former post-doctoral research associate at the school, is now with the U.S. Department of Agriculture Forest Service, Wood Products Insects Research Unit, in Starkville, Miss.

While they used so-called yellow fever mosquitoes (Aedes aegypti) — one of several species of mosquitoes found in the United States — Peterson says catnip should work against all types of mosquitoes.

Aedes aegypti, which can carry the yellow fever virus from one host to another, is found in most parts of the United States. Yellow fever itself, however, only occurs in Africa and South America, according to the Centers for Disease Control. Vaccines and mosquito control programs have essentially wiped out the disease in the United States, although there have been isolated reports of unvaccinated travelers returning with the disease. The last reported outbreak in this country was in 1905.

Peterson put groups of 20 mosquitoes in a two-foot glass tube, half of which was treated with nepetalactone. After 10 minutes, only an average of 20 percent — about four mosquitoes — remained on the side of the tube treated with a high dose (1.0 percent) of the oil. In the low-dose test (0.1 percent) with nepetalactone, an average of 25 percent — five mosquitoes — stayed on the treated side. The same tests with DEET (diethyl-m-toluamide) resulted in approximately 40 percent to 45 percent — eight-nine mosquitoes — remaining on the treated side.

In the laboratory, repellency is measured on a scale ranging from +100 percent, considered highly repellent, to –100 percent, considered a strong attractant. A compound with a +100 percent repellency rating would repel all mosquitoes, while –100 percent would attract them all. A rating of zero means half of the insects would stay on the treated side and half on the untreated side. In Peterson’s tests, catnip ranged from +49 percent to +59 percent at high doses, and +39 percent to +53 percent at low doses. By comparison, at the same doses, DEET’s repellency was only about +10 percent in this bioassay, he notes.

Peterson says nepetalactone is about 10 times more effective than DEET because it takes about one-tenth as much nepetalactone as DEET to have the same effect. Most commercial insect repellents contain about 5 percent to 25 percent DEET. Presumably, much less catnip oil would be needed in a formulation to have the same level of repellency as a DEET-based repellent.

Why catnip repels mosquitoes is still a mystery, says Peterson. “It might simply be acting as an irritant or they don’t like the smell. But nobody really knows why insect repellents work.”

No animal or human tests are yet scheduled for nepetalactone, although Peterson is hopeful that will take place in the future.

If subsequent testing shows nepetalactone is safe for people, Peterson thinks it would not be too difficult to commercialize it as an insect repellent. Extracting nepetalactone oil from catnip is fairly easily, he says. “Any high school science lab would have the equipment to distill this, and on the industrial scale it’s quite easy.”

Catnip is a perennial herb belonging to the mint family and grows wild in most parts of the United States, although it also is cultivated for commercial use. Catnip is native to Europe and was introduced to this country in the late 18th century. It is primarily known for the stimulating effect it has on cats, although some people use the leaves in tea, as a meat tenderizer and even as a folk treatment for fevers, colds, cramps and migraines.

A patent application for the use of catnip compounds as insect repellents was submitted last year by the Iowa State University Research Foundation. Funding for the research was from the Iowa Agriculture Experiment Station.

Chris Peterson, Ph.D., is a former post-doctoral research associate at Iowa State University in Ames, Iowa, and is now a Research Entomologist with the U.S. Department of Agriculture Forest Service, Wood Products Insect Research Service, in Starkville, Miss.

Joel R. Coats, Ph.D., is professor of entomology and toxicology and Chair of the Department of Entomology at Iowa State University in Ames, Iowa."

Note: This story has been adapted from a news release issued by American Chemical Society for journalists and other members of the public. If you wish to quote from any part of this story, please credit American Chemical Society as the original source.